Pages that link to "Q44673901"

The following pages link to Molecular characterization of postnatal development of testicular steroidogenesis in luteinizing hormone receptor knockout mice (Q44673901):

Displaying 49 items.

• Genetic Models for the Study of Luteinizing Hormone Receptor Function (Q26781559) (← links)
• Cell-specific ablation in the testis: what have we learned? (Q26786397) (← links)
• Defective postnatal development of the male reproductive tract in LGR4 knockout mice (Q28510622) (← links)
• In search of rat stem Leydig cells: identification, isolation, and lineage-specific development. (Q28571143) (← links)
• Regulation of cytochrome P450 1B1 expression by luteinizing hormone in mouse MA-10 and rat R2C Leydig cells: role of protein kinase A (Q28576804) (← links)
• Steroidogenic factor 1 differentially regulates fetal and adult leydig cell development in male mice (Q30356184) (← links)
• Hypogonadism Associated with Cyp19a1 (Aromatase) Posttranscriptional Upregulation in Celf1 Knockout Mice. (Q30360551) (← links)
• The Leydig cell MEK/ERK pathway is critical for maintaining a functional population of adult Leydig cells and for fertility (Q30426235) (← links)
• Essential roles of COUP-TFII in Leydig cell differentiation and male fertility (Q30441112) (← links)
• Targeted disruption of luteinizing hormone beta-subunit leads to hypogonadism, defects in gonadal steroidogenesis, and infertility (Q30448413) (← links)
• Fetal Leydig Cells Persist as an Androgen-Independent Subpopulation in the Postnatal Testis (Q33631503) (← links)
• An in vivo demonstration of functional G protein-coupled receptor dimers (Q33720008) (← links)
• Serum LH correlates highly with intratesticular steroid levels in normal men (Q33835802) (← links)
• Insights into the Development of the Adult Leydig Cell Lineage from Stem Leydig Cells (Q33843277) (← links)
• Sertoli cells maintain Leydig cell number and peritubular myoid cell activity in the adult mouse testis (Q34075686) (← links)
• Inactivation of the Celf1 gene that encodes an RNA-binding protein delays the first wave of spermatogenesis in mice. (Q34441335) (← links)
• A critical point of male gonad development: neuroendocrine correlates of accelerated testicular growth in rats during early life (Q35138465) (← links)
• A Sertoli cell-specific connexin43 knockout leads to altered interstitial connexin expression and increased Leydig cell numbers (Q35563707) (← links)
• Sertoli Cells Modulate Testicular Vascular Network Development, Structure, and Function to Influence Circulating Testosterone Concentrations in Adult Male Mice (Q36008293) (← links)
• Oncostatin-M inhibits luteinizing hormone stimulated Leydig cell progenitor formation in vitro (Q36327836) (← links)
• The foetal Leydig cell-- differentiation, function and regulation (Q36391041) (← links)
• Neuroendocrine regulation of Leydig cell development (Q36391570) (← links)
• Overexpression of PRL7D1 in Leydig Cells Causes Male Reproductive Dysfunction in Mice (Q36512605) (← links)
• Hypothalamic control of the male neonatal testosterone surge. (Q36672387) (← links)
• Experimental rodent models of prostatitis: limitations and potential (Q36697550) (← links)
• The steroidogenic acute regulatory protein as a target of endocrine disruption in male reproduction (Q36929584) (← links)
• New insights into epididymal biology and function (Q37090503) (← links)
• Phthalate-induced testicular dysgenesis syndrome: Leydig cell influence (Q37283701) (← links)
• Germ-line activation of the luteinizing hormone receptor directly drives spermiogenesis in a nonmammalian vertebrate (Q37543799) (← links)
• Update on male hormonal contraception: is the vasectomy in jeopardy? (Q37718605) (← links)
• Morphological and functional maturation of Leydig cells: from rodent models to primates (Q38366001) (← links)
• Wt1 is involved in leydig cell steroid hormone biosynthesis by regulating paracrine factor expression in mice (Q38942007) (← links)
• Vitamin A prevents round spermatid nuclear damage and promotes the production of motile sperm during in vitro maturation of vitrified pre-pubertal mouse testicular tissue. (Q39348492) (← links)
• Estradiol-mediated suppression of CYP1B1 expression in mouse MA-10 Leydig cells is independent of protein kinase A and estrogen receptor (Q39501477) (← links)
• CYP1B1 expression in rat testis and Leydig cells is not inducible by aryl hydrocarbon receptor agonists (Q39711888) (← links)
• Transcriptional profiling of luteinizing hormone receptor-deficient mice before and after testosterone treatment provides insight into the hormonal control of postnatal testicular development and Leydig cell differentiation. (Q40686602) (← links)
• Impact of a constitutively active luteinizing hormone receptor on testicular gene expression and postnatal Leydig cell development (Q42591874) (← links)
• Where do adult Leydig cells come from? (Q43125848) (← links)
• Hepatocyte growth factor is a mouse fetal Leydig cell terminal differentiation factor. (Q46113959) (← links)
• Neuregulin 1 Regulates Proliferation of Leydig Cells to Support Spermatogenesis and Sexual Behavior in Adult Mice (Q46346168) (← links)
• Infertility with defective spermatogenesis and steroidogenesis in male mice lacking androgen receptor in Leydig cells (Q46936235) (← links)
• Transcriptome profiling of the developing postnatal mouse testis using next-generation sequencing (Q46976745) (← links)
• Neonatal Kisspeptin is Steroid-Independently Required for Defeminisation and Peripubertal Kisspeptin-Induced Testosterone is Required for Masculinisation of the Brain: A Behavioural Study Using Kiss1 Knockout Rats. (Q48459650) (← links)
• Pituitary gonadotropin and testicular gonadotropin receptor expression in Atlantic cod (Gadusmorhua L.) during the first reproductive season: Effects of photoperiod modulation. (Q51866394) (← links)
• Fish Oil Ameliorates High-Fat Diet Induced Male Mouse Reproductive Dysfunction via Modifying the Rhythmic Expression of Testosterone Synthesis Related Genes. (Q52715491) (← links)
• Elucidation of the mechanism of suppressed steroidogenesis during androgen deprivation therapy of prostate cancer patients using a mouse model. (Q53093577) (← links)
• Advances in male contraception (Q56679619) (← links)
• Androgen receptor expression is required to ensure development of adult Leydig cells and to prevent development of steroidogenic cells with adrenal characteristics in the mouse testis (Q64104524) (← links)
• Fibroblast growth factor 16 stimulates proliferation but blocks differentiation of rat stem Leydig cells during regeneration (Q64279460) (← links)